Responds to Concerns Noted in Insp Repts 50-424/92-01 & 50-425/92-01 Re Implementation of two-stage Approach, Performance of in-situ Differential Pressure Testing & Compliance W/Generic Ltr 89-10 Schedule

ML20101Q606
Person / Time
Site:	Vogtle
Issue date:	07/09/1992
From:	Mccoy C GEORGIA POWER CO.
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
GL-89-10, MSV-01059, MSV-1059, NUDOCS 9207150023
Download: ML20101Q606 (15)
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Text

Ocova Poce Ccmpany n:cew~

-W Btrrning"wn. A%bama 35201 4.

• Telephore 205 877J10;I C,K McCoy Georgia Power ye hes&nt, NacRar Vcg9e Propct N M W" M N Mt*

July 9, 1992 MSV-01059 2838 Docket No. 50-424 50-425 U. S. Nuclear W'" ry Commi sion ATTN: Document C a tol Desk Washington, D. C.

20S55

)

Gentlemen:

V0GTLE ELECTRIC GENERA' LING PLANT REPLY TO NRC INSPECTION REPORT NOS. 50-424/92-01 and 425/92-01 Inspection Report No. 50-424/92-01 and 50-425/92-01 documents the results of the NRC inspection of the VEGP Generic Letter 89-10 program, in conjunction with this report, the NRC requested a written response to the following threa' concerns identified in the report:

1. Implementatinc of The Two-Stage Approach

2. Performance of In-Situ Differential Pressure Testing

3. Compliance with the Generic Letter (GL) 89-10 Schedule The VEGP GL 89-10 program is being implemented in accordance with the two-stage. approach referenced -

the generic letter.

In Stage 1 of the 9rogram, the MOVs are being set-up statically utilizing diagnostic

_quipment.

Setpoints have. been established by performing a-detailed analytical evaluation of each MOV covered by the generic letter.

The

-results of this evaluation represent the "best data a'vailable" at this time to establish setpoints for the MOVs included in the GL 89-10 program.

In Stage 2 of the program, the analytical methodology incorporated in Stage 1 will be verified utilizing a variety of techniques including design basis differential pressure testing.

VEGP's initial response to the generic letter did not commit to perform any additional differential pressure testing beyond that which had been performed in response to I&E Bulletin 85-03. A total of forty-five (45) valves were dynamically tested at VEGP utilizing M0 VATS TMD based test equipment.

Concerns identified relative to the capability of the M0 VATS TM0' equipment to accurately measure thrust under dynamic conditions have subsequently raised questions reghrding the validity of the original VEGP differential pressure test data. The M0 VATS issue, as well as additional

! concerns which have been raised relative to anomalous valve behavior under 0'I 9207150023 920709 i

PDR ADOCK 05000424 G-ppg

3 Ao m

W U. S. Nuclear Regulatory Commission MSV-D1059

-Page 2 high differential pressure conditions have caused GPC to reassess its

_ position regarding differential pressure testing. Additional in-situ differential pressure testing will be performed at VEGP and a plan for performing this testing is outlined in Attachment 1.

.VEGPs initial response to the generic letter committed to complete the design review and static testing of all GL 89-10 MOVs within five years or L

three refueling outages.. This work, which essentially constitutes the VEGP Stage.1 program, will be. completed within the aforementioned schedule.

In addition, as a result of the design review, fifty-four (54) MOVs have been identified for. modification.

Modifications are currently planned to be completed within the original five year or three refueling outage schedule, or should unexpected problems occur, modifications will be ccmpleted by June 28, 1995 which. includes one additonal refueling outage for each unit.

With respect to~the implementation of-the Stage 2 activities, GPC 15 requesting a one year schedule extension to June 23, 1995. The extension is required to= facilitate the completion of the differential pressure testing outlined in Attachment 1 and the subsequent development of

justifications for valves which are not dynamically tested. A number of t

issues have arisen since the initial VEGP nbmittal which necessitate this extension, including the._following:-

1.

A total-of fifty-four (54) MOVs will be modified during the 1993 refueling outages. This work ns not envisioned when the initial submittal was made and the engineering, procurement and installation activity necessary.to implement these modifications wi11' require extensive resources in terms of both manpower and.

. outage time, t2.

Problems identified relative to the M0 VATS TMD based test equipment in the summer of 1991. limited the scope of static testing performed

-at~VEGP during 1R3 (fall 1991).and 2R2:(spring 1992) and raised

questions as to the validity < ' the dynamic testing previously

' performed. Alternative test equipment is being evaluated at this

-time and extensive testing will be required during the 1993, 1994 and 1995 refueli_ng outages to satisfy our commitments.

3.

EPRI ha's undertaken the MOV Performance Prediction Program with the objective of developing and verifying an analytical-. methodology to evaluate _the performance of.H0Vs.without the need for extensive

design basis testing.. However, the EPRI program is not scheduled-Lto be complete until mid 1994 which does not allow time to evaluate-and utilize'the results of this program within the original GL 89-10 schedule.

Substantial progress has been made to date at VEGP relative to the implementation of the' recommendations contained in GL 89-10.

The resources and technology available within the motor-operated valve arena O

U. S. Nuclear Regulatory Commission MSV-01059 Page 3 trema'in very dynamic and VEGP will continue to aggressively pursue the i

resolution of GL 89-10 issues as they are identified.

If you have any questions or comments regarding this response, please centact my office 4 Sincerely, C. K. McCoy d

7 or/HET/lb Attachment Exc:~;Georoia Power Company Mr. W-B. Shipman-Mr. M. Sheibani NORMS U

S. Nuclear Reaulatory Commission

-Mr. S. D. Ebneter, Regional Administrator Mr D.-S. Hood, licensiag Project Manager, NRR Mr. B. R. Bonser, Senior Resident Inspector, Vogtle w

. ~,

~.

ATTACHriENT 1 Differential Pressure Test Plan A prioritization process was developed to identify the motor-operated valves (M0V's) at VEGP which are candidates for differential pre'sure testing.

The objective of the prioritization process was to rank the

. valves relative to the importance of performing differential pressure testing. -The valves were evaluated based upon criteria aimed at identifying valves which must perform under severe service conditions 1

and/or appear to be marginal based on an analytical evaluation.

Service Fact.pI The design basis differential pressure was chosen as the criteria for evaluating the relative severity.of each valves operating requirements.

Differential pressure is the primary source of dynamic loads and the greater the differential pressure, the larger the difference in loads between-static and dynamic conditions.

Each valve was assigned a service

. factor as outlined below:

litxlmum_Qjff_e,rentialPressure Service Factor DP<200 psi 1

200 psi s DP $ 500 psi 2

0_P>500 psi 3

Valves which are required.to operate at design basis cnnditions of less i.han -200 psi. differential pressure do not experience significant dynamic

. loading during operation, fr,dustry testing has not identified valves in

these applications as being anomalous performers regardless of valve type.

These valves appear to exhibit predictable perfonuance and torque / thrust requirements for these valves can be determined utilizing analytical techniques.

3 Valves.which _ operate in the 200 psi to 500 psi range experience moderate dynamic loading. These valves warrant more attention than valves u

operating at lesc than 200 psi. However, these are not severe valve applications by any standard.

In general, industry testing has not identified significant problems for varas operating under these conditions.

W L

L L

l '

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ATTACHMENT 1 Differential Press _ure Test P.l.an (Continued)

Valves operating against differential pressures of 500 psi and above experience the most significant loading increases under dynamic conditions. Virtually all of the concerns which have been identified

. within the' industry relative to anomalous valve behavior involve testing l performed at differential pressures greater than 500 psi.

In reality, most.of the problems have occurred at differential pressures considerably chigher than 500 psi. However, 500 psi was chosen as a conservative value to categorize.'high differential pressure valves. Differential pressure test data for valves operating under these conditions would provide the most useful information regarding differences in valve performance between static and dynamic conditions, tiarain Faltat The percent difference in the calculated required torque / thrust versus the calculated available torque / thrust was chosen as the criteria for evaluating margins for each valve. The greater the margin between the available torque /thrustiand the required torque / thrust, the less critical the accuracy cf the-analytical methodology becomes.

Each valve was assigned a margin factor as outlined below:

Glculated Marain-tiargin Factors Y

Margin > 200%-

-1 h

.100% $ Margin s 200%-

2-Margin < 100% -

31 M0V's?which are equipped with operators capable of producing greater than

200% of the required torque / thrust can be setup to ensure that the valve will be-capable of performing its design basis function with a high degree of. confidence. ' Even if a valve-in.this category exhibited some type of

anomalous behavior, the reserve capability inherent in the operator ensures that the valve will-be capable cf performing its design basis function..

.MOV's which have margins between 100% and 200% warrant additional 4

- attention over those-in-the previous category. However, the operators on these valves stfil have; substantial reserve capacity available should some type of anomalous;behaviorLoccur.

1 2;.

. - ~.

t,n ATTACllMENT 1 Differential Preng!te Test Plan (Ccntinued)

MOV's with margins of less than 100% require clost e scrutiny to ensure

'that they are set-up to operate within their design window.

Diagnostic equipment accuracy, operator repeatability and the " rate of loading" phenomenon all serve to reduce the available margin. - Differential pressure tests' performed on valves -in this category are useful in substantiating analytical methodologies which, by virtue of the reduced margins, must be inherently conservative.

Prior _ily The_ differential pressure testing priority for each valve was determined by adding the service factor and the margin factor.

The service factor,.

the margin. factor and the differential pressure test priority for each valve-. included within the scope of the VEGP Ceneric Letter 89-10 program is outlined in Table 1.

M22.9.

It is GPC's intent to perform differential pressure tests on all priority 5 and 6 valves avbich can.be practicably tested. A total of ninety-nine (99) va'Ives have been classified as priority 5 or 6 valves. A preliminary review hasLconcluded that approximately 75% of these valves can be tested at greater than 50% of their-design basis differential pressure.

This number'may be subject to change as individual valve test procedures are r

-developed and potential test constraints become more_ apparent.

In evaluating the practicability of_ testing the priority 5 and 6-valves,

- the ability to achieve a minimum' test differential pressure of 50% of the

-1 design-basis was~ selected as a criteria for determining the feasibility of-

' testing.

It was concluded _that tests performed at differential pressures of.less than 50% of the design basis would provide _ limited technical data

-ard would not be cost effective.

Justifications:will be developed for-all valves which are notidifferential-pressure tested.

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' DIFFERENTIAL' PRESSURE TEST PRIORITY' Continued upeema o, rweeme one g Opee Qame Yterest Thswee Tasque Toegue DP -

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SIZE (ped)

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N

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$t8t900 143 2446 923 13D MA NA 3

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$a00 -

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-TABLE 11 DIFFERENTIAL PRESSURE TEST-PRIORITY.

4 v

Continued.

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(%)'

(%)

(%)

DP h 500 200 < tP4:600 i DP <= 200 esG <= 100 teF% < ese < Pus %

ese h 280 Phoney 1JV":164 130W 2.0 900 -

GLOBE-FISHEf4 SHOO 1F15 1716 1.%

135 MA MA

-3 2

6 2FVStb6 130; 2,9 900 M OSE-FfStetH SHOO -

1715 1716 335 136 wA seaA 3

2 6

2tW190hl 121J 2.6 1300 GATE ANCHOH DMLING SesH00 143 2446 823 130 MA MA 3

2 5

7tfV19063 121J 2.6 -

160G OAIE ANCHOH DAHLtNG Sase00 143 2486 823 13J MA NrA -

3 2

6 2tfVt90t.S 1211 2.6 tS00 GAIE '

AfEHOR DAHLibeG

$8m000 143 2486 923 130 MA MA

-3 2

S MtN19067 121s 2.6 1500 OAIE ANCHOR DAHL$NG

$a8800 143 2496 823 130 MA MA 3

2 5

E4V3 bee -

1212 1.0 17s0 JLOBE FasteEH -

5a88000 240$

2461 103 103 setA 1 MA 3

2 6

2HVS120 130; 40 900 -

MORE Fa3rsf H -

6800 1%8 1550 138 198 feA MA 3

2 S

2HVS122 7302 4.0 900 GLOBE f tSHEM '

6000 TMO ISSO 138 198 MA-perA 3

2 6

29WSt26 -

130J 40 900 GLOHE F-BSHER SB00-1648 1648 136

- 19e FCA se!A 3

2 6

2Hvbt27 1302 40 900 GLOBE F tSHE f4 SetOO 1 bee

-1646 138 198 NtA 90'A 3

2 S

LW6:32.

3302 40 900 OtOBE F13HE H San 0 16as 1646 138 229 MA WA 3

2 4

19WS134 ~

1%2 40 900-GLOHE ftSHER S800

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- e42 233 Peta fwA 3

2 6

2tWS137 130? 40 900-gloat-FtSHER Shrao 1550 1660 172 273 NA hrA 3

2 6

CWS139 1302 4.0 900 GLO6E S ISHEH.

SHOO IS60 16SO t ?2 273 MA MA 3

2 6

2tN8701A 120i 12=0 iS25 GAIE tNE SIINGHOUSE Ste01 -

386 425 196 72

1. eta MA 2

3 6

~

2HV8101H 1201 12.0 3526 GATE tNE SilNGNUUSE SM99

' 355

- 425

>161 72 NA NA 2

3 6

7tfV5192A

1. 201 12,6 th26 GAIL WESilNGHOIISE '

SM61 366 425 1st F2 N, A -

pe/A 2

3 t

E W67028 120i t2.0 1525 GATE WE SY WmHOUSE SM93

' 366 425 1 985 72 N;A N<A 2

3 6

XMV8813 1204 2.0 1600 GLOBE VELAN SM800 0

1621 968 162 NA NA 3

2 6

DN6914 1204 16 1500 -

GLOH&

V1.LAN SM900 1521 1521

- 162 162 N/A Pt/A 3i 2

6 2tfV5K9 1204 1.6 1600 -

GLOHE VE t. AN

$M800

' 1621 9521 162 162 WA ferA 3

2 S

2tivim018 120e1 80 316 GA3E

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SMH00 268 124 47

'37 NA 0WA 2

3

. TOTAL CATEGORY '

5 45 --

=

4 o'f 9

_m 1 LRwi.

c TABLE'1 DIFFERENTIAL PRESSURE. TEST PRIORITY f

' Continued uponeg Ocess t%=mg caemg Open Claes Thrust Ttwust forque Torque DP SYS ANS8 SM8(S8 HBC

'OP DP Mage Magne Margui assegni SE7MCE FACTOR MAF4 GIN FACTOR Tese f AG NifMBE No. StIE RATINO VALVE TYPE MANUFACTUHF R SIZE SEZE (psaf)

(pokf)

-(%)

f%)

(%)

(%)

DP h 500 200 < DP < $00 -

DP<.200 WG c. 300 900% < MG < 200%

MG h 200 Prermy 16Voe10 12et 30 2D%

GAIE WE STINGHOUSE SMts000 202 202 24a 140 N!A MA 2

2 4

f f VO611 1206 30 2035 GATE MSlaNGHottSE SM8000 202 202 248 140 htA N/A 2

2 4

ttW166hA 1202 34 6 150 tAJIIt f4 LV HSHLfl SM600 H36 103 103 N/A MA St

$1 1

3 4

1HV16 erb 120J 16 0 I SO tsuT IE t4 tV F ISHE H SMtt00 H2B 101 101 MA MA 71 71 1

3 4

lHV16dNA 120? 24 0 150 EXJIILHf t y itSHLH SM1100 H38 103 103 twA NeA St at t

3 4

1HV16ebH 1202 15 0 150 BUTIEf4LY f tSHE N SM800 H38

$0G 100 N/A N/A 11 71 1

3 4

ttN t974 121) 10 0 the BUIIEffty i tSHE H sta6000 HtB 163 137 MA feA 96 96 1

3 4

ttNtd76 1211 10 0 160 BUl f E f tFLV f f5HE R SMtt000 H18 164 138 MA NtA 96 96 9

3 4

ttW1975 121/ 10 0 MO huTit Fif t.Y f tSHe ft SMH000 HtB 163 137 NIA MA 96 95 1

3 e

IPN1979 121/ 10.0 t St.

BtJT TE f4 LV E 4SHE R SMts000 HTS 164 938 N/A N/A 96 se 1

3 4

stfSl13 1302 10 0 150 bu13 Et4 tY HSHE H SMtm00 HUS 23 23 MA NA 13 149 1

3 4

8HVS146 120N 30 2036 GAIE WE SlaNGHOUSE SM tt000 490 e

tc5 347 NA MA 2

2 4

f tN8147 120ei 30 103s GAT 6 WE SIlfeGHOUSE SMts00C 490 0

t6%

347 MA MA 2

2 3

4 1HV8716A t209 80 316 GATE WESilNGt10USE SMtkJe 263 273 174 116 N/A MA 2

2 4

1HVG7168 1209 00 316 GAIE WE SilNGNUUSE SMt900 PS3 273 155 116 MA N/A 2

2 4

IHVBeOS 1204 to 150 GAIE WE SilNGHOUSE SMBDO 210 210 112 102 N/A MA 2

2 4

1CN#812A 1205 12 0 316 GAst-WE SilNGHOUSE 6H1 430 2S 49 9%

N/A MA 1

3 4

ItN8812H 1209 12 0 316 GATE WE SilNGHOUSE SBS 430 26 41 931 MA MA 1

3 e

fHU61rJ3A 1314 80 SM GATE WE STINGHLMJSE SMH00 220 220 233 162 N/A NA 2

2 4

lHt%S238 1204 60 150 GAIE WESliNGHOttSE SMH00 220 220 233 162 N/A MA 2

2 4

1*1vn924 1208 60 12 GATE INE S T IM5 HOUSE Sut900 0

220 666 162 NsA MA 2

2 4

GHVUDOIA 120ei 80 316 GAIE M S f ifWitK.RJSE SMt300 2%

124 117 182 MA MA 2

2 4

1HVWD018 120ti 8.0 316 GAIE WD f fiNGHOUSE Sutt00 2S8 124 110 239 N/A N/A 2

2 4

stNUD02A 120ri 10.0 160 UAlb WE Si lNGf$ MJSE SMt90 901 68 66 157 MA fWA 1

3 4

1HVtoG2B 120ei 10 0 1M GA1E WLSIIPeGHOUSE SM80 191 68 63 900 N/A MA 1

2 4

ItW9003A 13M to 0 150 GATE WE S11NGHOUSE SMHO 150 68 83 154 NtA MA 1

e IHVtExtatt 120r) 10 D 150 GA6E WESi tNGHOU'5E SMhD 150 65 e6 167 MA MA t

3 4

ttNUO17A 1204 10 0 150 GAIE M SliNGHotJSE SMBO ES 23 97 177 N/A NrA 1

3 4

1HV5014 et 1204 40 0 150 GAIE M $ t N3 HOUSE SMHO 66 23 85 tai MA MA t

3 4

tttViK550A 2401 40

'50 GATE ANC**)f4 DAHLING SMH000 j 132 132 68 88 MA MA 1

3 4

THV1DEDil 240t 40 l $0 GATE AEHOHDAHL.tP4u SMbiOOO) 132 132 67 86 feA MA l

1 3

1 4

5 of 9

~ e g

.,Ws TABLE 1 6

DIFFERENTIAL PRESSURE TEST PRIORITY Contittued

't alc =.

. c===e Open Canse Tsweet Thrust Tongue Tarque

' OP SYS ANSI Saa8/SB HHC OP DP taarge h882m tierge tierge t3ERVICE FAC10R esAfE3sI4 FActOft Tees I AC NU589E NO

$32E RAfsMi VALVIE TYfi saANUFACTtM M SI2E SIZE (pswr)

(poes)

(%)

(%)

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OP > 500 200 < OP < E00 DP <= 200 MG <= 100 100% < 600 < 200%

'aka h ::ce Peaurey 2fv0610 1206 30 20 % ~

GAIE V&S f MwauSE SM tt000 202 202 246 840 MA 84tA 2

2 4

2fbesis 1209 30 2031 GAIL WWE SIINGHOUSE Stett300 202 202 244 140 MA NfA 2

3 4

WW1668A t202 24 0 160 fAJI1EfM LY

$85HLH SMHGO H30 103 803 DetA MA et et 1

3 4

2tNies588 120J 96 0 the tuJTIE N t Y IISHt H SMll00 H2tf 101 tot fatA MA 71 71 1

3 8

7tWieeeA 1202 24 0 160 BUTIENLV f thHt H S&aB00 ff38 103 103

1. eta MA et et 1

3 8

7tfWi*Jestl 1202 14 0 150 titJII& fWl.Y fISHf H SMB00 H215 100 900 MrA NtA 71 71 1

3 4

20W1974 1211 10 0 ISO titJIIt l# L Y f tSHf f4 SMis000 HiB 163 137 N/A NIA 96 to 1

3 4

2tNIS75 1211 10 0 150 tMJilEf4 LV f tSHt H SM6s000 HtB 164 130 M4 N/A 96 96 1

3 4

2ttW1975 1211 l0 0 150 tsulIE N L Y f tSHt ft Sutt000 HtB 163 137 N/A NrA 95 96 1

3 4

?HVIS19 t21/ 10 0 t$o tMJ1 IE N L V E s'iHE R Sastspr0 ttta 164 13e MA MA ge 36 1

3 4

E NSt13 130.' 50 0 160 tMJI f t fG LY ftSHtH 5488000 698 23 23 N/A MA 73 tes 1

3 4

Nfv8846 123's 30 2036 UATE VWE STINGHOUSE SM8000 490 0

165 347 841A N/A 2

2 4

2twe147 120a 30 20M GATE M SIINUMOUSE SMllOOO 490 0

906 347 N/A MA 2

2 4

7tive716A T 20$ 80 3 te GAIE VWE Sl aNGHOUSE SM800 2h3 2 73 16e 166 NtA Nf4 2

2 4

4 2ttve7ies 1209 eC 3*6 GATE VWt $1aNGHOUSE Sash 00 213 273 163 196 MA MA 2

2 e

2Hveau6 1204 80 1 h0 QAIE VWE SilNGetOUSE SMtt00 210 210 310 102 pe/A NsA 2

2 4

2HVS8 92A 12C 12 0 316 GATE WE SitNGHOUSE

$81 430 25 40 999 8eJA N/A e

3 4

E4VBS t 2tt 1209 12 0 3 t6 GAIE WESlaNuMUUSE "481 430 25 49 931 N/A N#A 4

3 4

2tfVetE*lA 1204 60 160 GAIE M SIINGHOUSE SMHC0 220 220 233 162 N/A -

MIA 2

2 4

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2 4

2HVBS24 120e 60 th0 GATE WE SitNGHOUSE SuttDO 8

220 6%

962 MA NIA 2

2 4

2HV9001 A 120t 4.0 318 GAT E VWE S t aPwGHOUSE SMH00

'M 12e DOS 182 N/A NiA 2

2 4

7twisotr2A 1206 90 0 150 GAIE M SilecGetot>SE bMt tot 56 6e ter setA pe/A 1

3 4

291VWsE'It 12 twt 10 0 130 GATE WE SIIN(M.MJSE hMHO to t 58 49 95 MA

• stA 1

3 4

41V9003A 12(M 90 0 160 GAIE M SI8NGHOUSE SMiso 160 68 77 ISS MA NIA 1

3 4

C M' t?tM 10 0 sto GAT E WE SIsPAJHOUSE SMHO 150 Sa El t bs MA NrA 1

3 e

20fVWD t 7th 12tN 10 0 S $O GAfE WESifNuMOUM -

SMHO 66 23 e3 ISS MA DetA 1

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29fV9380A 240i 40 t50 -

GA1E AHLitOH DAHR IMA SMH000 t32 132 67 9F MA NrA 1

3 e

2tW1Kmott 240i 40 t he GATE AMM)R DAftING SMtt000 132 132 46 84 8eeA fe!A 1

3' 4

W" 2

TOTAL CATEGORY 4 -

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TABLE 1 DIFFERENTIAL PRESSURE TEST PRIORITY b

Continued OP*#*9 G88889 Upeste*2 Closeg g

Opost Close 7twwst Thneet Toritme lesque DP SYb ANSI

$MHISS HBC Of" DP Maget Magm Umgm Magm SERVICF F ACTOR MANGaN F ACTOR Test i AO NUMRE ad ta/E RA flNo VALVE YYPE M ANtXACTUfIF R Sale Silf (pead)

(peser)

(%)

(%)

(%)

(%)

OP h 500 200 < DP < $00 DP<=20 MG <- t00 000% < MG < 200%

aaG >= 200 Pruway 1HV2ti24A Q 40 I SO BUI1E M LY F tSHE H SMB000 HiB 0

$0 NA NtA 244 244 1

18 2

THV2n248 itua 40. 150 8U11 EFU LY F tSHf H SMHuGO His 0

to W%

MA 244 244 1

1 2

1HV W2EA e609 28 0 yM B1JIIEM L Y f tSHk H SMH00 H21s 0

0 95 A kA 313 313 e

2 f

tHVW2/A 150, 24 0 C4 BuiltHfly f lStit H SuB00 H2H 0

0 N!A MA 313 313 1

1 2

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0 N/A MA 313 313 1

1 2

tHV2tr1SA iStM 24.0 t ?J HUIIEF6LY F esHE H bMHUO H2O O

O N/A N/A 313 373 1

1 7

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9 2

THV8100 120d 20 1600 ( bt OBE VtLAN SMH00 Nic 160 681 707 N/A N/A 1

1

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$89 199 399 454 432 PWA MA e

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1 2

TLV0t128 120N 40 150 GAIE WWE SilfeUNOUSE SMH000 Fe 42 207 200 MA NA 1

1 2

1LV0112C I ?DM 40 1 $0 GALE WE SIINGNUU*.2 SMH000 79 42 201 200 N/A NA 3

2 2HV2824A t s0M 40 150 Bullf MLv f 4SHt H SMil000 H1B 0

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50 N/A ft/A 244 244 e

1 2

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0 NA MA 343 313 1

1 2

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1 2

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1 2

2HV8100 1209 20 1 h00 GLOttE Vtt AN SMH00 15!

160 tb7 107 MA6 NA 9

t 2

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91 602 902 N/A N/A 1

2 29tve t12 120M 20 1500 GLUHE Vf LAN SMH00 Itap the Joe 701 m%

NA 1

1 2

?tWM411 A 120H 60 150 uATE WVE SitreuMOUSE SMisn0 0

90 426 164 epa NA 1

1 2

2HV84 718 120d 60 160 GAlf WWE S I N#40UM SM800 0

ta 426 Me pa# A feiA 1

9 2

2tWB801A 1204 60 160 GATE vvE SipiHUU%

SMHoo 0

43 ?

4 25 357 8e/A N/A 1

1 2

2tWB80/B 1204 60 160 GAIE WE SisNGHuuSE Suts00 0

43 JJ9 an0 NA mA 1

2 2HVen09A 1204 60 1526 GAIE WWt sisteis10UE Set two 19w t;2F 695 mA

1. d/A 1

1:

2 gevanciatt 12041 8 0 1526 GAIL VWE SitPdGNUUSE SHI 199 19e 443 471 MA NA 1

1 2

2tW58 v t A

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1 2

2HVEa t f 8 120, 14 0 316 GATE WWE SI fNGHUU SE Sett 67 57 See 410 MA MA 1

s 2

2HV6843 1204 12 0 152b GAIE WWt SIINuMUU%

SH2 tw3 O

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1 2

2LWit2H 120N 40 150 GAIE WE SIINGNUUSE SMHUUO FS 42 207 200 NIA f&A 1

1 2

2LVott?C 1209 40 ISO GAIE WE SIWeutM'USE SMH000 FG 42 201 dJO ellA MA l t

1 2

TOTAL CATEGOHY 2

44

=

TOTAL GL 89-10 SCOPE MOVs 250 9 of 9

,